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Nitrogen Response of Panicum Species Differing in CO₂ Fixation Pathways. II. CO₂ Exchange Characteristics¹

The C₄ cycle of CO₂ fixation may allow for more efficient use of N in CO₂ assimilation and dry matter production than the C₃ cycle. The association of high N use efficiency with C₄ photosynthesis was tested on six Panicum species which differ in CO₂ fixation pathway. Panicum maximum (C₄), P. prionitis (C₄), P. hylaeicum (C₃), P. laxum (C₃), P. milioides (C₃/C₄), and P. schenckii (C₃/C₄) were grown at day/night temperatures of 35/30 and 24/ 19°C and gas exchange measurements were made at 35, 30, and 24°C. Plants were grown in complete nutrient solutions and then N was withdrawn and measurements of carbon dioxide exchange rates (CER) and transpiration were made just before and during the N depleted from the highest levels attained for all the C₃ and C₃/C₄ species. For P. maximum and P. prionitis the CER response was curvilinear with optimum leaf N levels of about 30 to 35 g kg^–1, except for P. maximum grown at 24/19°C in which an optimum was not reached. The C₄ species, P. maximum, exhibited the highest average CER/N value of 24 mmol CO₂ kg^–1N s^–1 for plants grown at either 24/19 or 30/35°C. For all other species CER/N was lower than for P. maximum, and CER/ N was lower in plants grown at 24/19 than at 35/30°C. The lower CER/N at 24/19°C was associated with higher specific leaf weights. The C₄ species, P. prionitis, had the lowest CER/N values of 4.0 and 5.5 mmol CO₂ kg^–1N s^–1 for plants grown at 24/ 19 and 35/30°C, respectively; due perhaps to its very thick leaves with specific leaf weights three to five times higher than the other species. Deficiency of N decreased both leaf conductance and mesophyll conductance in all species, but for plants grown at 35/30°C reduction of mesophyll conductance was much greater than leaf conductance. It is concluded that N use efficiency is not necessarily higher in C₄ than in C₃ species and that the advantage apparently conferred by the C₄ metabolism may be negated by morphological or other leaf characteristics.

Key Words: Nitrogen use efficiency • C₄, C₃, C₃/C₄ intermediate species • Leaf conductance • Mesophyll conductance

² Professor of agronomy, Univ. of Georgia and plant physiologist, CSIRO, Div. of Tropical Crops and Pastures, Chancellor's Place, St. Lucia, Qld., Australia, 4067, respectively.

Received for publication December 15, 1982.